1) relief well
减压井
1.
Reservoir immersion prediction and relief well effect analysis;
水库浸没预测及减压井效果分析
2.
Researching a new type relief well pipe with replaceable filter core;
可置换滤芯新型减压井管的研究
3.
Management on relief wells and piezometric pipes in Beijiang embankment;
北江大堤减压井、测压管管理工作存在问题分析
2) relief wells
减压井
1.
This paper analyzes the silting cause of relief wells and puts forward a reversible washing method to restore well relieving effect which is by pumping or pumping-in water to the well.
文章分析了减压井淤堵失效原因,提出了往返式循环抽注水双向洗井技术,并进行现场井试验。
2.
Although 100 more relief wells had constructed at landside toe of the embankment but never attained the presupposed effect due to silting year by year.
文中通过大堤原观资料分析,论证了其现状和减压井逐年淤堵趋势;由室内和现场洗井试验,探求了一种恢复减压井效用的方法。
3.
Considering this characteristic,some engineering measures such as a suspended cut off wall and relief wells were adopted and the groundwater monitoring system was set up.
经过分析,利用城区渗流场具有的两河间单向渗流的特性,采取悬挂式截渗墙、减压井等工程措施,并布置地下水监测网络。
3) reduced-pressure drilling
减压钻井
4) pressure relief shaft
减压竖井
1.
The effect of tunnel hood and pressure relief shaft reducing peak-pressure and peak-pressure grade was tested and analyzed.
采用模型试验方法,对缓冲设施、减压竖井降低压缩波峰值和压力梯度峰值的效果进行了测试分析。
5) relief well
基坑开挖与降水减压井
6) temperature and pressure reduction
减温减压
1.
It analyzes the unreasonable way of using steam in iron and steel enterprises at present,namely the quality loss situation of temperature and pressure reduction,and proposes the improvable measures of combined heat and power.
以蒸汽利用的热力学第一、第二定律理论为依据,提出了合理用能所遵循的原则及其评价指标,分析了目前钢铁企业蒸汽利用的不合理方式,即减温减压的品质损耗情况,并就其提出了热电联产的改善措施。
2.
The exergy loss of primary steam after temperature and pressure reduction is calculated.
计算了一次蒸汽经减温减压后的火用损失。
3.
It analyze the unreasonable way of using steam m iron and steel enterprises at present,namely the quality loss situation of temperature and pressure reduction, and propose the improvement measures of combined heat and power.
本文以蒸汽利用的热力学第一、第二定律理论为依据,提出了合理用能所采用的方法及其评价指标,分析了目前钢铁企业蒸汽利用的不合理方式,即减温减压的品质损耗情况,并就其提出了热电联产的改善措施。
补充资料:减压井
减压井
relief well
(relief well)降低坝(堤)下游覆盖层内的渗透水压力和坝(堤)体浸润线,以防止管涌、流土、沼泽化等以及增加堤、坝稳定的一种减压排渗设施。当下游土层表面不透水层较厚或透水坝基未用垂直防渗设施截断渗流,以及在工程运行中发生冒水、土沸、管涌时,多在下游坡脚后设置减压井(图1)。减除沉淀的泥沙。上升管和沉淀管部分的管壁是不透水的,滤水管部分在管壁上开凿小孔以进水,这段俗称花管,其开孔率一般采用15一20%,视排水量和管径而异,为防止细沙渗入管中,花管外壁需包铜丝网或塑料网。 井管有石棉水泥管、钢管、混凝土管、透水混凝土管、塑料管、木管和瓦管等。常用的为石棉水泥管和钢管。(刘鸿梓)压井有时与排渗沟联合运用。基岩 图l减压井布置 减压井系统的设计,是要确定井径、井距、出水口位置及井深,并计算相应的渗流量,井距一般为15一30米,有的还根据实际观测资料进行补井调整,井径一般不小于15厘米且不超过25一30厘米。井内渗水须从排水沟排走,或利用集水沟排出,井的出水口愈低则排水效果愈好。 减压井由井孔、井管、反滤层、井口结构和排水沟等部分组成(图2)。井管与井壁之间填反滤料,井┌──┐ ┌──┐│六r │ │… ││:乏 │ │ ││ . │ │ ││ 口│ │ ││ 冲│ │ ││ 口│ │ ││ . │ │ ││ . │ │ │└──┘ └──┘┌──┬─┬─┬─┬─┐│. │ │二│} │峪││O │ │ │ │,││口 │ │ │ │,││O │ │ │ │‘││O │ │ │ │寻││ │ │ │ │奋│└──┼─┼─┼─┴─┤ │ │ │}_ │ └─┴─┴───┘图2设置在排水沟底部的减压井孔直径视井管材料而定,一般为60一75厘米,井管上部为上升管,下部为滤水管,最下部留1一2.5米作为沉淀管,运用一定时期后,可以用压缩空气洗井,清
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